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Journal Articles: 184, J83. Syed Muhammad Ammar Ali
and S. M. Rezaul Hasan, “A 38-GHz Millimeter-Wave Double-Stacked HBT
Class-F⁻¹ High-Gain Power Amplifier in 130-nm SiGe-BiCMOS,” IEEE Transactions On
Microwave Theory and Techniques, available online:
10.1109/TMTT.2020.2988874 (in press), May 2020. (Journal impact factor 3.76) 183. J82. S. M. Rezaul Hasan, “The
“nonideal” drain-loaded source-follower and accurate differential-amplifier
analysis,” International Journal of Circuit Theory and Applications, Wiley,
available online: https://doi.org/10.1002/cta.2796, May
2020 (impact factor 1.554) 182, J81. S. M. Rezaul Hasan and
Meera Kumari, “A new mid-band analysis methodology for source-followers and
drain-loaded source-follower with application in accurate
differential-amplifier mismatch analysis,” Journal of Analog
Integrated Circuits and Signal Processing-An International Journal,
Springer, vol. 103, no. 2, pp. 259-271, Mar. 2020. (Journal
impact factor 0.8). 181, J80. Meera Kumari and S. M. Rezaul Hasan, “A
New CMOS Implementation for Miniaturized active RFID insect tag and VHF
Insect Tracking,” IEEE Journal of Radio Frequency Identification, available
on-line, DOI: 10.1109/JRFID.2020.2964313, Jan. 2020. 180, J79. Ibtisam A. Abbas Al-Darkazly and S. M. Rezaul Hasan, “Extra-Low-Frequency
Pulse Stimulated Conformational Change in Blood-cell Proteins and Consequent
Immune Activity Transformation,” IEEE Journal
of Translational Engineering in Health and Medicine, available
on-line, DOI: 10.1109/JTEHM.2020.2963894, Jan. 2020. (Journal impact factor 2.075) 179, J78. Meera Kumari and S. M. Rezaul Hasan, “A Low Duty-Cycle
Burst-Mode Telemeter Signal Generation Technique for VHF Insect Tracking and
Its CMOS Implementation,” IEEE Transactions on Very Large Scale Integration
Systems, available on-line, DOI: 10.1109/TVLSI.2019.2947696, Oct. 2019. (Journal impact factor 1.95) 178, J77. Meera Kumari, B. K. Bhattacharyya and S. M. Rezaul Hasan, “First Ever Lowest
Duty Cycle for Periodic Burst Mode Signals for Insect Telemeter Package
Design,” IEEE Transactions on Components, Packaging and Manufacturing
Technology, vol. 9, no. 10, pp. 2006
-2015, Oct. 2019. (Journal impact
factor 1.86) 177, J76. Chaoping Zhang and
S. M. Rezaul Hasan, “A New Floating-gate Radiation Sensor and Readout Circuit
in Standard Single-poly 130nm CMOS Technology,” IEEE
Transactions on Nuclear Science, vol. 66, no. 7 (part III, regular
papers) pp. 1906 -1915, Jul.
2019. (Journal impact factor 1.44). 176, J75.
Vignesh Raja Balu and S. M. Rezaul
Hasan, “New Optimized ASIC Multiplier in 28nm CMOS for Processing the X-part
of FX Correlator in Radio Interferometry,” Experimental
Astronomy, Springer, vol. 47, no. 3, pp. 325-343, Jun. 2019. (Journal
impact factor 2.87) 175, J74.
Urooj Ainuddin, Muhammad Khurram and S. M. Rezaul Hasan, “Cloning the λ
Switch: Digital and Markov Representations of the Lambda Phage Infected E.
coli Bacterium,” IEEE Transactions on
NanoBioscience, vol. 18, no. 3, pp. 428-436, Jul. 2019. (Journal impact
factor 2.16). 174, J73.
S. M. Rezaul Hasan and Meera Kumari, “Accurate mid-band analysis of the
differential-amplifier with active current-mirror load,” IEEE VLSI
Circuits and Systems Letter (VCAL), vo. 5, no. 1, Feb. 2019. 173, J72. Chaoping Zhang and
S. M. Rezaul Hasan, “A New Floating-Gate MOSFET Model for Analog Circuit Simulation and
Design,” Journal of Analog
Integrated Circuits & Signal Processing-An International Journal,
Springer, https://doi.org/10.1007/s10470-018-1374-3, Dec. 2018. (Journal
impact factor 0.8). 172, J71. Vignesh Raja Balu and S. M. Rezaul
Hasan, “Computationally Minimized X-part for FX Correlator in Big-data
Interferometers,” IEEE Access, vol. 5,
pp. 25353-25364, 2017. (Journal impact
factor 3.25). 171, J70. Maria Waqas,
Muhammad Khurram and S. M. Rezaul Hasan, “Bio-cellular processes modeling on
silicon substrate: receptor–ligand binding and Michaelis Menten reaction,” Journal of
Analog Integrated Circuits &
Signal Processing-An International Journal, Springer, vol. 93, no. 2, pp.
329-340, Nov. 2017. (Journal impact factor 0.8). 170, J69. S. M. Rezaul Hasan,
“On gm-boosted follower-amplifier
and its novel circuit transformation based mid-band derivations,” Journal of
Analog Integrated Circuits & Signal Processing-An International
Journal, Springer, vol. 93, pp. 107-114, 2017. (Journal
impact factor 0.6). 169, J68. Ibtisam A.
Abbas Al-Darkazly and S. M. Rezaul Hasan, “Optimized
Low-Power CMOS Active-Electrode-pair for Low-Frequency Multi-channel
Biomedical Stimulation,” Microelectronics
Journal, Elsevier, vol. 66, pp. 18-24, Aug. 2017. (Journal
impact factor 0.9) 168, J67. Stepan Lapshev and S. M. Rezaul Hasan, “Using Multiple-Accumulator CMACs to Improve
Efficiency of the X Part of an Input-Buffered FX Correlator,” Experimental Astronomy, Springer, vol. 43, no. 2, pp. 177-187,
Apr. 2017. (Journal impact factor 2.87) 167, J66. S. M. Rezaul Hasan,
“Novel Inspection-based Mid-band derivations for CMOS Cascodes and gm-Boosted Topologies along-with Simplified
Compound Structure Gain-analysis,”
Journal of Analog Integrated Circuits & Signal Processing-An International
Journal, Springer, vol. 91, no. 1, pp. 21-41, 2017. (Journal
impact factor 0.6). 166, J65.
Sadia Alam and S. M. Rezaul Hasan, “A
Gene-Protein-miRNA Electronic Oscillator,” IEEE Transactions On Circuits and
Systems-II: Express Briefs, vol. 64,
no. 9, Sep. 2017. (Journal impact factor
1.2) 165, J64. Stepan Lapshev and S. M. Rezaul Hasan, “New Low Glitch and Low Power DET Flip-Flops
Using Multiple C-Elements,” IEEE Transactions On Circuits and
Systems-I: Regular Papers, vol. 63, no. 10, pp. 1673-1681, Oct. 2016. (Journal impact factor 2.0) 164, J63. Ibtisam A.
Abbas Al-Darkazly and S. M. Rezaul Hasan, “Dual-band Waveform
Generator with Ultra-wide Low-frequency Tuning-range,” IEEE Access, vol. 4, pp. 3169-3181, Apr. 2016. (Journal impact factor 3.25) 163, J62. Ananiah Sundararajan
and S. M. Rezaul Hasan, “Quadruply-split Cross-driven Doubly Recycled gm-doubling
Recycled Folded Cascode for Micro-Sensor Instrumentation Amplifiers,” IEEE
Transactions On Circuits and Systems-II: Express Briefs, vol. 63, no. 6, pp. 543-547,
Jun. 2016. (Journal impact factor 1.2) 162, J61.
Stepan Lapshev and S. M. Rezaul
Hasan, “On the architecture for the X part of a very large FX correlator
using two-accumulator CMACs,” Experimental Astronomy,
Springer, vol. 41, no. 1, pp. 259-270, 2016. (Journal
impact factor 2.87) 161, J60.
Sadia Alam and S. M. Rezaul Hasan,
“A VLSI Circuit Emulation of Chemical Synaptic Transmission Dynamics and
Post-Synaptic DNA Transcription,” IEEE
Transactions on Very Large Scale Integration (VLSI) Systems, vol. 24, no. 2, pp. 678-691, Feb. 2016. (Journal impact factor 1.2) 160, J59. Ibtisam A.
Abbas Al-Darkazly and S. M. Rezaul Hasan, “A Waveform Generator Circuit for Extra Low
Frequency CMOS Micro-Power Applications,” International Journal of Circuit Theory and Applications,
Wiley Inter-Science, vol. 44, no. 2, pp. 266-279, Feb. 2016. (Journal
impact factor 1.21) 159, J58. Ananiah
Sundararajan and S. M. Rezaul Hasan, “Elliptic Diaphragm Capacitive Pressure Sensor and
Signal Conditioning Circuit Fabricated in SiGe CMOS Integrated
MEMS,” IEEE Sensors
Journal, vol. 15, no. 3, pp.
1825-1837, Mar. 2015. (Journal impact factor 1.85) 158, J57. S. M. Rezaul
Hasan, “Simplified Analog CMOS Mid-band Small-signal Analysis utilizing
Short-circuits and Incremental Perturbations,” International Journal of Electrical Engineering
Education(IJEEE), SAGE, UK, vol. 52, no. 4, pp. 356-369, 2015. (Journal impact factor 0.3) 157, J56. Jie Li and Rezaul
Hasan, “An
Inductive-degenerated Current-bleeding LNA-merged CMOS Mixer for 866 MHz RFID
Reader,” Analog Integrated
Circuits & Signal Processing-An
International Journal, Kluwer Academic Publishers (Springer), vol. 80, no. 2,
pp. 173-185, Aug. 2014. (Journal impact factor 0.6). 156, J55. Ananiah Sundararajan
and S. M. Rezaul Hasan, “Release Etching and Characterization of MEMS
Capacitive Pressure Sensors Integrated on a standard 8-metal 130nm CMOS
process,” Sensors and
Actuators A: physical, Elsevier, vol. 212, pp. 68-79, Jun. 2014. (Journal impact factor 2.0) 155, J54. Ananiah Sundararajan
and S. M. Rezaul Hasan, “CMOS
Integrated Elliptic Diaphragm
Capacitive Pressure Sensor in
SiGe MEMS,” Microsystem Technologies, Springer, vol. 20, no. 1, pp.
145-155, 2014. (Journal impact
factor 1) 154, J53. Ananiah Sundararajan
and S. M. Rezaul Hasan, “Post-processing and performance analysis of
BEOL integrated MEMS pressure sensor capacitors in 8-metal 130 nm CMOS,” Microelectronic Engineering, Elsevier, vol. 119, pp.
89-94, Mar. 2014. (Journal impact factor 1.28) 153, J52. S. Alam, E.M-K Lai, J. Young, S. M. Rezaul Hasan, “Rapid electronic
prediction of gene expression regulation in bacterial cells,” Electronics Letters, IET, vol. 50, no. 22, pp. 1566-1568,
2014. (Journal impact factor 1.0) 152, J51. Stepan Lapshev and S. M. Rezaul Hasan, “A Low-Power
Voltage Limiter/Regulator IC in Standard Thick-Oxide 130 nm CMOS for
Inductive Power Transfer Application,”
Advances in power electronics, vol. 2014, Article ID 317523, 6 pages, 2014. 151, J50. Muhammad Khurram and
Rezaul Hasan, “A
Full-Band UWB Common-Gate Band-pass Noise Matched gm-Boosted series peaked CMOS Differential LNA,” Journal of
Analog Integrated Circuits & Signal Processing-An International
Journal, Kluwer Academic Publishers (Springer), vol. 76, pp. 47-60,
2013. (Journal impact factor 0.6). 150, J49. Nabihah Ahmad and Rezaul Hasan, “A 0.8 V 0.23 nW
1.5 ns full-swing pass-transistor XOR gate in 130 nm CMOS,” Active and
passive electronic components, vol. 2013, Article ID 148518, 6 pages, Hindawi
Publishing Corporation, 2013. (Journal impact factor 0.3) 149, J48. Sadia Alam and S. M.
Rezaul Hasan, “'Integrated circuit
modeling of bio-cellular post-transcription gene mechanisms regulated by microRNA
and proteasome,” IEEE Transactions On
Circuits and Systems-I: Regular Papers, vol. 60, no. 9, pp. 2298-2310,
2013. (Journal impact factor 2.0) 148, J47. Jack Li and S. M. Rezaul Hasan, “Design and Performance Analysis of a 866 MHz Low-Power
Optimized CMOS LNA for
UHF RFID,” IEEE Transactions On
Industrial Electronics, vol.
60, no. 5, pp. 1840-1849, May 2013.
(Journal impact factor 5.1) 147, J46. S. M. Rezaul Hasan, “A 0.8V
40 Gb/s Novel CMOS Regulated
Cascode Trans-impedance Amplifier for Optical Sensing Applications,” Journal
of Signal Processing Systems,
Springer, DOI 10.1007/s11265-012-0707-1, vol. 72, no. 1, pp. 63-68, 2013. (Journal impact factor 0.7) 146, J45. Nabihah Ahmad and S.
M. Rezaul Hasan, “Low-power
Compact Composite Field AES S-Box/Inv S-Box design in 65nm CMOS
using Novel XOR Gate,” Integration: The VLSI Journal, Elsevier publishers, DOI
10.1016/j.vlsi.2012.06.002, vo. 46, no. 4, pp. 333-344, 2013. (Journal impact factor 0.6) 145, J44. N. Ahmad and S. M.
Rezaul Hasan, “'Efficient Integrated
AES Crypto-Processor Architecture for 8-bit Stream Cipher,” Electronics Letters, IET, vol. 48,
no. 23, pp. 1456-1457, 2012. (Journal impact factor 1.0) 144, J43. Jack Li and S. M. Rezaul Hasan, “Pulse-Biased Low-Power Low-Phase-Noise UHF LC-QVCO for
866 MHz RFID Front-End,” IEEE Transactions On
Microwave Theory and Techniques,
vol. 60, no. 10, pp. 3120-3125,
2012. (Journal impact factor 2.0) 143, J42.
Muhammad Khurram and
S. M. Rezaul Hasan, “A 3-5
GHz Current-Reuse gm-Boosted
CG LNA for Ultrawideband in 130nm
CMOS,” IEEE Transactions on Very
Large Scale Integration (VLSI) Systems,
vol. 20, no. 3, pp. 400-409, Mar. 2012. (Journal impact factor 1.2) 142, J41. Muhammad Khurram and S. M. Rezaul Hasan, “A Series Peaked Noise Matched gm-Boosted 3.1-10.6
GHz CG CMOS Differential LNA for UWB
WiMedia,” Electronics Letters, vo.47,
no. 24, pp. 1346-1348, IET, Nov. 2011. (Journal impact factor 1.0) 141, J40. Sadia Alam and S. M. Rezaul Hasan, “'On the Modeling of Calcium Ion (Ca+2)
Conductance in Nerve Membrane Protein Channel as a Memristive Circuit Element,” Electronics Letters, vo.47, no. 25, pp. 1361-1363, IET, Dec. 2011 (also
features in front-page INSIDE VIEW
article, p. 1353 of this issue). (Journal
impact factor 1.0) 140, J39. Muhammad Khurram and S. M. Rezaul Hasan, “A series peaked
gm-boosted 3.1-10.6 GHz CMOS CG UWB LNA for WiMedia,” Microwave and Optical Technology Letters, vol. 54, no. 2, pp. 532-535,
Wiley Inter-Science, Feb. 2012 (First published online on 15th
December, 2011). (Journal impact
factor 0.6) 139, J38.
Robert Fisk and S. M.
Rezaul Hasan, “A calibration-free low-cost process-compensated temperature
sensor in 130nm CMOS,” IEEE Sensors Journal, vol. 11, no.
12, pp. 3316-3329, Dec. 2011. (Journal
impact factor 1.5) 138, J37. S. M. Rezaul Hasan and Aanan Khurma, “AC dielectrophoresis using elliptic electrode geometry,”
Journal of Sensors, Volume 2011, Article ID 204767, 8 pages, Hindawi Publishing Corporation, 2011. (Journal impact factor 0.5) 137, J36. Muhammad Khurram and S. M. Rezaul Hasan, “Novel analysis and optimization of gm-boosted common-gate
UWB LNA,” Microelectronics Journal, Vo. 42, no. 2, pp. 253-264, Elsevier
publishers, 2011. (Journal impact
factor 0.9) 136, J35. S. M. Rezaul Hasan, “Transition
frequencies and negative resistance of
inductively terminated CMOS buffer cell and application in MMW LC VCO,”
Active and passive electronic components,
vol. 2010, Article ID 542406, 11 pages, Hindawi Publishing Corporation, 2010. (Journal impact factor 0.3) 135, J34. Jie Li and S. M.
Rezaul Hasan, “A 12dB 0.7V 850uW
CMOS LNA for 866 MHz UHF RFID Reader,”
Active and passive electronic components, vol. 2010, Article ID 702759, 5
pages, Hindawi Publishing Corporation,
2010. (Journal impact factor 0.3) 134, J33. S. M.
Rezaul Hasan, “A Novel
0.7V High Sensitivity Complementary Differential MAGFET Sensor for Contactless Mechatronic Applications,” Sensors and Actuators, A: Physical, vol.
163, pp. 138-149, Elsevier publishers, 2010. (Journal impact factor 2.0) 133, J32. Muhammad
Khurram and S. M. Rezaul Hasan, “A 4mW 3-5 GHz Current Reuse gm-Boosted
Short Channel Common-Gate CMOS UWB LNA ,” Analog integrated circuit and
signal processing, Express Letters, Kluwer academic publishers(Springer), vol. 65, pp.
415-418, 2010. (Journal impact factor 0.6) 132, J31. Jie Li and S. M.
Rezaul Hasan, “A 0.7V 850uW CMOS LNA for UHF RFID Reader,” Microwave and
Optical Technology Letters, vol. 52, no. 12, pp. 2780-2782, Wiley
Inter-Science, Dec. 2010. (Journal impact factor 0.6) 131, J30. Robert Fisk and S. M. Rezaul Hasan, ”Incremental
delta-sigma modulators for temperature sensing applications,” International
Journal of Computer Applications in Technology, Inderscience, vol. 39, no.
1/2/3, pp. 66-71, 2010. (Journal impact
factor 0.1) 130, J29. S. M.
Rezaul Hasan, ”A Micro-sequenced CMOS Model
for Cell Signaling Pathway using G-Protein and Phosphorylation Cascade,” International Journal of Computer
Applications in Technology, Inderscience, vol. 39, no. 1/2/3, pp. 40-45, 2010. (Journal impact factor 0.1) 129, J28. S. M. Rezaul Hasan, “A
Digital CMOS Sequential Circuit Model for Bio-Cellular Adaptive Immune
Response Pathway Using Phagolysosomic Digestion: A Digital Phagocytosis
Engine,” International Journal of Biomedical Science and Engineering, vol. 3,
no. 5, pp. 470-475, 2010. 128, J27. S. M.
Rezaul Hasan, “A Low-Voltage Scalable (1.8V-0.75V) CMOS Folded-Cascode LC
Quadrature VCO for RF Receivers,” Journal of Circuits, Systems and Computers,
vol. 19, no. 4, pp. 835-857, 2010. (Journal
impact factor 0.6) 127, J26. S. M. Rezaul Hasan, “Analysis and design of a
multi-stage CMOS band-pass low-noise pre-amplifier for ultra-wide-band RF
receiver,“ IEEE Transactions on Very Large Scale Integration (VLSI) Systems, vo. 18, no. 4, pp. 638-651, Apr. 2010. (Journal impact factor 1.2) 126, J25. S. M.
Rezaul Hasan, “A Novel Low-Voltage
CMOS Variable Gain Amplifier with
Gain-Independent Input Impedance Matching
for DTV Tuning Applications,” Journal of Circuits, Systems
and Computers, vol. 18, no. 6, pp. 1119-1136, Oct. 2009. (Journal impact factor 0.6) 125, J24. S. M.
Rezaul Hasan and W. L. Xu, “A central
pattern generator circuit for rhythmic robotic chewing locomotion in
low-voltage analog CMOS technology,”
Artificial Life and Robotics: An International Journal, Springer-Japan, vol. 14, no. 3,
pp. 306-310, Dec. 2009. (Journal impact factor 0.1) 124, J23. S. M. Rezaul Hasan, “A Novel Mixed-Signal Integrated Circuit Model for
DNA-Protein Regulatory Genetic Circuits and Genetic State Machines, ” IEEE Transactions on Circuits and
Systems-I: Regular papers, vol. 55, no. 6, pp. 1185-1196, Jun. 2008. (Journal impact factor 2.0) 123, J22. S. M. Rezaul Hasan, “An offset
compensated sampled-data CMOS
comparator circuit for low-power implantable biosensor
applications,” Journal of Circuits,
Systems and Signal Processing,
Springer-Verlag, vol. 27, pp. 351-366,
Jun. 2008. (Journal impact
factor 0.8) 122, J21. S. M. Rezaul Hasan and Siti Noorjannah Ibrahim,
“Design of an Enhanced Electric Field Sensor Circuit in 0.18μm CMOS
for a Lab-on-a-chip Bio-cell
Detection Micro-array,” Journal of Sensors and Transducers, IFSA,
ISSN 1726-5479, vol. 90, pp. 39-47,
Apr. 2008. 121, J20. S. M. Rezaul Hasan and Siti Noorjannah Ibrahim,
“An Improved CMOS Sensor Circuit using Parasitic Bipolar Junction
Transistors for Monitoring the Freshness of Perishables,” Journal of Sensors and Transducers, IFSA,
ISSN 1726-5479, vol. 90, pp. 276-280, Apr. 2008. 120, J19. S. M.
Rezaul Hasan, “Stability Analysis and
Novel Compensation of a CMOS Current-feedback Potentiostat Circuit for
Electro-chemical Sensors,” IEEE
Sensors Journal, vol. 7, no. 5, pp. 814-824, May. 2007. (Journal impact
factor 1.5) 119, J18. S. M.
Rezaul Hasan, “A CMOS DCO design using delay programmable differential
latches and a novel digital control scheme,”
Electrical Engineering, Springer-Verlag, Germany,
ISSN:0948-7921(paper) 1432-0487(online), vol. 89, no. 7, pp. 569-576,
published online August 2006. (Journal impact factor 0.4) 118, J17. S. M.
Rezaul Hasan and Nazmul Ula, “A Novel
Feed-forward Compensation Technique
for Single-Stage
Fully-Differential CMOS Folded Cascode Rail-to-Rail Amplifier,” Electrical Engineering, Springer-Verlag,
Germany, ISSN:0948-7921(paper) 1432-0487(online), vol. 88, no. 6, pp.
509-517, Aug. 2006. (Journal impact
factor 0.4) 117, J16. S. M.
Rezaul Hasan, “Design of a
Low-power 3.5GHz Broad-Band
CMOS Transimpedance Amplifier for
Optical Transceivers,”
IEEE Transactions on Circuits &
Systems I: Regular papers, vol 52, no. 6, pp. 1061-1072 , 2005. (Journal impact
factor 2.0) 116, J15. Shahin J. Ashtiani,
Omid Shoaei, S. M. Rezaul Hasan, A.
M. Jannesari, “On
the Parasitic-Sensitivity of Switched-Capacitor Summing-Integrator structures for S-D Modulators,” IEEE Transactions on Circuits &
Systems II: Analog and Digital signal
processing, vol. 50, no. 9, pp. 634-640, Sept. 2003. (Journal
impact factor 1.4) 115, J14. S. M. Rezaul Hasan
and Omid Shoaei, “A Fast Macro-Model for Substrate Coupling &
Ground Bounce Induced Substrate Noise Simulation in Mixed Signal VLSI,” Journal of Analog
Integrated Circuits &
Signal Processing-An International Journal,
Kluwer academic publishers(Springer), U.S.A., Vol. 37, no. 3, PP. 149-163,
Dec. 2003. (Journal impact factor 0.6) 114, J13. S. M. Rezaul Hasan and Yufridin
Wahab, "Performance
enhancement of low-voltage dynamic
BiCMOS logic gates by
transistor reordering," VLSI
Design, An international journal of custom-chip design, simulation and
testing, Taylor & Francis, U.K.,
vol. 15, no. 2, pp. 547-553, 2002. (Journal impact
factor 0.2) 113, J12. S. M.
Rezaul Hasan, Lim Chu Aun and Azman Yusof, " 600 MHz BiCMOS digitally controlled
oscillator for clock recovery
& frequency synthesis PLLs ," International Journal of Electronics, Taylor &
Francis, U.K., vol. 88, no. 5, pp. 529-541,
May 2001. (Journal impact
factor 0.4) 112, J11. Ho Yoon San
and S. M. Rezaul Hasan, "An
Architectural Comparison and CMOS Implementation of Sixth-Order Cascaded SD Modulator,"
Journal of Analog Integrated Circuits & Signal Processing-An International
Journal, Kluwer Academic Publishers(Springer), U.S.A., Vol. 26, no. 3, pp. 257-271, March 2001. (Journal impact
factor 0.6) 111, J10.
Jayabalan Kundan and S. M. Rezaul
Hasan " Enhanced folded source-coupled logic technique for low-voltage
mixed-signal integrated circuits,"
IEEE Transactions on Circuits
& Systems -II: Analog & Digital Signal Processing, Vol. 47, no. 8, pp. 810-817, August 2000. (Journal impact factor 1.4) 110, J9. S. M. Rezaul
Hasan and Yufridin Wahab, "Performance enhancement of low-voltage
dynamic BiCMOS logic gates by charge redistribution based
transistor reordering," Jurnal
Teknikal Pusat Pengajian
Electrik dan Elektronik, Vol 4,
no. 1 , pp. 1-8, 1998. 109, J8. S. M. Rezaul
Hasan and Ho Yoon San "A behavioral simulator for switched-capacitor
sigma-delta modulator analog-to-digital converter," ASEAN Journal on
Science & Technology for Development, vol. 15, no. 2, pp. 59 -
71 , 1998. 108, J7. S. M.
Rezaul Hasan and Chakaravarty 107, J6. S.M.
Rezaul Hasan and Ng Kang Siong, "
A Parallel Processing VLSI BAM Engine,"
IEEE Transactions on Neural
Networks, vol. 8, no. 2,
pp. 424-436,1997. (Journal impact factor 2.9) 106, J5. S. M. Rezaul Hasan and Chakaravarty 105, J4. S. M.
Rezaul Hasan, S.Z. Basri and R. M. Ali, "A VLSI processing element for
massively parallel pyramid machine," AMSE Journal On Advances In
Modelling & Analysis, A, Vol. 31, No 1, pp. 61- 64, 104, J3. S. M.
Rezaul Hasan and Ng Kang Siong, "A VLSI hardware design for
bi-directional associative memory neural network," AMSE Journal On Modelling, Measurement &
Control, A, Vol. 58, No 1, pp. 11-18, 103, J2. S. M. Rezaul Hasan and C.M. Hadzer, " A new
Distributed Arithmetic VLSI Architecture for Discrete Fourier Transform
Processor," ASEAN Journal of
Science & Technology for Development, Vol. 10, No. 2 , pp. 105-114 , 1993
. 102, J1. S. M.
Rezaul Hasan ," A Novel ASIC Architecture for Image Scaling," Jurnal
Teknikal Pusat Pengajian
Electrik dan Elektronik, Vol 2, no. 1 , pp. 83-90
, 1992. Front Page
Featured Article In
Journal: 101, F1. IET ELECTRONICS LETTERS,
INSIDE VIEW, The equivalence of nerve membrane protein conductance and
memristive circuits has been demonstrated by researchers in New Zealand, Dr.
S. M. Rezaul Hasan tells us more, Electronics Letters, 8th
December 2011, vo.47, no. 25, p. 1353. Chapter in Book Series: 100, B2. S. M. Rezaul Hasan and Johan
Potgieter, “A centre-of-mass tracker integrated circuit design in nanometric CMOS for
Robotic Visual Object Position
Tracking,” Studies in Computational
Intelligence (SCI), Springer-Verlag,
vol. 76, pp. 69-79, 2007. Book Review: 99, B1. Ali Yeon
Md. Shakaff and S. M. Rezaul Hasan, "Microprogrammed Systems Design- A
Book review," International Journal of Electrical Engineering Education,
Manchester, U.K., 1993. Conference
Proceedings: 98, C98. R. Gallichan, D. McCormick, Rezaul Hasan, P. Hu and D. Budgett,
“Analysis of Peak Currents in Integrated Synchronous Rectifiers,” Proceedings 13th IEEE International
NEWCAS Conference, Grenoble, France,
June 7-10, pp. 1-4, DOI:10.1109/NEWCAS.2015.7182040, 2015. 97, C97. Ibtisam A. Abbas Al-Darkazly and S. M. Rezaul
Hasan, “A Power Efficient CMOS Cascode Current Mirror to supply independent
biasing for Low Voltage Applications,”
Proceedings 20th Electronics New Zealand Conference,
Auckland, New Zealand, pp. 84-88, 2013. 96, C96. Ananiah Durai Sundararajan and S. M. Rezaul Hasan, “Multi - Recycled
Folded Cascode Amplifier for Sensor Readout,”
Proceedings 20th Electronics New Zealand Conference,
Auckland, New Zealand, pp. 80-83, 2013. 95, C95. Nabihah Ahmad
and S. M. Rezaul Hasan, “Fault Detection Scheme for AES S-box/ Inv
S-box,” Proceedings 20th
Electronics New Zealand Conference, Auckland, New Zealand, pp. 75-79, 2013. 94, C94. Sadia Alam
and S. M. Rezaul Hasan, “Bioelectronic Circuit Design for Gene
Expression Mechanisms,” Proceedings 20th
Electronics New Zealand Conference, Auckland, New Zealand, pp. 115-119, 2013. 93, C93. Richa Budhiraja, Priya
Pundir and S. M. Rezaul Hasan,
“A 90nm transimpedance amplifier design for nano-pore based DNA nucleotide
sequencer,” Proceedings 19th
International conference on
Mechatronics and machine vision in practice(M2VIP 12), Auckland, pp. 146-149,
2012. 92, C92. Ananiah Sundararajan and S. M. Rezaul Hasan, “A CMOS integrated
MEMS capacitive pressure sensor design
in a 3D SiGeMEMS process,” Proceedings
19th
International conference on
Mechatronics and machine vision in practice(M2VIP 12), Auckland, pp. 150-155,
2012. 91, C91. Ananiah Sundararajan and S. M. Rezaul Hasan, “A Low Power 4th
Order Low Pass Gm-C Filter in 130nm CMOS,”
Proceedings 18th Electronics New Zealand Conference,
Palmerston North, New Zealand, pp. 77-81, 2011. 90, C90. Nabihah
Ahmad and S. M. Rezaul Hasan,
“Decomposition method for AES Mix Column and Inv Mix Column VLSI architecture
optimization,” Proceedings 18th
Electronics New Zealand Conference, Palmerston North, New Zealand, pp. 91-94,
2011 89, C89. Nabihah Ahmad and Rezaul Hasan, “A new design of
XOR-XNOR gates for low power application,”
Proceedings 2011 IEEE International Conference on Electronic Devices,
Systems and Applications (ICEDSA), Kualalumpur, Malaysia, 5 pages, 2011. 88, C88. Jie Li
and Rezaul Hasan, “Performance analysis of microstrip line matching
network for 866 MHz UHF LNA,”
Proceedings 17th Electronics New Zealand Conference,
Hamilton, New Zealand, pp. 121-128, 2010. 87, C87. Nabihah Ahmad
and Rezaul Hasan, “Design of XOR gates in VLSI implementation,” Proceedings 17th Electronics New
Zealand Conference, Hamilton, New Zealand, pp. 51-55, 2010. 86, C86. Massoud Alipour
and Rezaul Hasan, “Design and simulation of biosensor for DNA
detection by CMOS technology,”
Proceedings 17th Electronics New Zealand Conference,
Hamilton, New Zealand, pp. 63-68, 2010. 85, C85. Nabihah Ahmad,
Rezaul Hasan, and Waruszarina Mat Jubadi, “Design of AES S-Box using
combinational logic optimization,”
Proceedings 2010 IEEE Symposium on Industrial Electronics and Applications, Oct. 3-5,
Penang, Malaysia, pp. 679-682, 2010. 84, C84. Robert Fisk
and Rezaul Hasan, “Low-cost temperature sensor on a modern sub-micron
CMOS process,” Proceedings 16th
Electronics New Zealand Conference, Nov. 18-20, Dunedin, New Zealand, pp.
43-48, 2009. 83, C83. Pritesh Lohani
and Rezaul Hasan, “Design of an improved fuzzy logic controller
micro-chip for washing machine,”
Proceedings 16th Electronics New Zealand Conference, Nov.
18-20, Dunedin, New Zealand, pp. 25-30, 2009. 82, C82. Jack Li
and Rezaul Hasan, “Comparison of optimized low-power LNA topologies
for 866 MHz UHF RFID,” Proceedings 16th
Electronics New Zealand Conference, Nov. 18-20, Dunedin, New Zealand, pp.
131-136, 2009. 81, C81. Muhammad Khurram
and Rezaul Hasan, “Design of a low-power narrowband amplifier for HF
radio applications using CMOS FETs,”
Proceedings 16th Electronics New Zealand Conference, Nov.
18-20, Dunedin, New Zealand, pp. 131-136, 2009. 80, C80. Rezaul Hasan, “A digital CMOS sequential circuit
model for bio-cellular adaptive immune response pathway using phagolysosomic
digestion: A digital phagocytosis engine,”
Proceedings 16th Electronics New Zealand Conference, Nov.
18-20, Dunedin, New Zealand, pp. 133-142, 2009. 79, C79. S. M. Rezaul Hasan, “A Micro-sequenced CMOS Model for Cell Signaling Pathway
using G-Protein and Phosphorylation Cascade,” Proceedings 15th International conference on Mechatronics and machine
vision in practice(M2VIP), 78, C78. Nazmul Ula
and S. M. Rezaul Hasan, “A novel 10GHz
CMOS inductive buffered transimpedance amplifier stage for optical
transceivers,” Proceedings 2008 IEEE
51st Midwest symposium on circuits and systems, Knoxville, Tennessee, USA, pp. 629-633, 2008. 77, C77. S. M. Rezaul Hasan, “A Novel CMOS low-voltage regulated
cascode trans-impedance amplifier operating at 0.8V supply voltage,”
Proceedings 15th
International conference on
Mechatronics and machine vision in practice(M2VIP), 76, C76. Robert Fisk and S. M. Rezaul Hasan, “Incremental delta-sigma modulators for
temperature sensing applications,” Proceedings 15th International conference on Mechatronics and machine
vision in practice(M2VIP), Auckland, pp.63-67, 2008.
75, C75. S. M. Rezaul Hasan, “An inductive buffered
trans-impedance amplifier stage for optical transceivers in 130nm CMOS,”
Proceedings 2008 IEEE 20th
International Conference of Microelectronics (ICM 2008), Sharjah, UAE, pp.
219-222, Dec. 2008. 74, C74. Muhammad Khurram
and Rezaul Hasan, “Design of a sub-gigahertz complementary cascode LNA
with active input matching,”
Proceedings 15th Electronics New Zealand Conference, Nov.
24-25, Auckland, New Zealand, pp. 39-44, 2008. 73, C73. Muhammad Khurram
and Rezaul Hasan, “Design of a full-band gm-boosted current reused UWB LNA,” Proceedings 15th Electronics New
Zealand Conference, Nov. 24-25, Auckland, New Zealand, pp. 25-28, 2008. 72, C72. Rezaul Hasan and Muhammad Khurram, “A new CMOS
negative resistance oscillator buffer-cell with a fundamental f-trans
limit,” Proceedings 15th
Electronics New Zealand Conference, Nov. 24-25, Auckland, New Zealand, pp.
29-32, 2008. 71, C71. S. M. Rezaul Hasan and Nazmul Ula, “Analog CMOS Charge Model for Molecular Redox
Electron-Transfer Reactions
and Bio-Chemical Pathways,” Proceedings 2008 IEEE International
Conference on Circuits and Systems (ISCAS
2008), pp. 2038-2041, 70, C70. S. M.
Rezaul Hasan, W. L. Xu and Nazmul Ula, “Low-voltage analog
current-mode central pattern generator
circuit for robotic chewing locomotion using 130nm CMOS technology,” Proceedings 2007 IEEE International Conference of
Microelectronics (ICM 2007), Cairo, Egypt, pp. 167-171, Dec. 2007. 69, C69. S. M. Rezaul
Hasan and Siti Noorjannah Ibrahim, “An
enhanced CMOS electric field sensor circuit for cells sensing lab-on-a-chip
application,” Proceedings International conference on sensing
technology(ICST), Palmerston North ,
pp. 255-259, Nov. 2007. 68, C68. S. M. Rezaul
Hasan and Siti Noorjannah Ibrahim, “An
improved MOS sensor circuit for emulating the quantum of freshness in
perishables using parasitic bipolar devices,” Proceedings International
conference on sensing technology(ICST), Palmerston North , pp. 260-264, Nov. 2007. 67, C67. S. M. Rezaul
Hasan and Jie Li, “A
bias-controlled noise-cancelling CMOS tuned low noise amplifier for UWB
transceivers,” Proceedings IEEE ICECS, 66, C66. S. M. Rezaul
Hasan, “A CMOS RF variable gain amplifier with gain-independent input
impedance matching,” Proceedings 14th
Electronics New Zealand Conference, Nov. 12-13, Wellington, New Zealand, pp.
53-58, 2007. 65, C65. S. M.
Rezaul Hasan and W. L. Xu, “Low-voltage analog CMOS central
pattern generator circuit for rhythmic robotic chewing locomotion,” Proceedings 14th Electronics New Zealand
Conference, Nov. 12-13, Wellington, New Zealand, pp. 297-301, 2007. 64, C64. S. M. Rezaul
Hasan, “A PMOS-diode differential body-driven offset compensated 0.5V
sampled-data comparator for biosensor
applications,” Proceedings 20th IEEE International conference on
VLSI Design (VLSID’07), 63, C63.
S. M. Rezaul Hasan and Johan Potgieter, “A novel CMOS sampled-data center of
mass tracker circuit for robotic visual feedback object tracking,” Proceedings the 3rd
International conference on Autonomous Robots and agents, Dec. 12-14,
Palmerston North, New Zealand, pp. 213-218,
2006. 62, C62. 61, C61.
S. M. Rezaul Hasan, “ A Novel Body-driven
Deep nanometric CMOS
Operational Transconductance Buffer for Implantable Bio-electronics,” Proceedings 13th Electronics New Zealand
Conference, Nov. 13-14, Christchurch, New Zealand, pp. 163-166, 2006. 60, C60.
S. M. Rezaul Hasan, “A Novel Offset compensated CMOS
Sub-1V Sampled-data
Comparator for Biosensor Applications,” Proceedings 13th Electronics New
Zealand Conference, Nov. 13-14, Christchurch, New Zealand, pp. 75-80, 2006. 59, C59. S. M. Rezaul
Hasan, “A Novel 16-bit CMOS Digitally Controlled Oscillator,“ Proceeedings IEEE ASIA-PACIFIC conference on Circuits & Systems, Dec.
5-7, Singapore, pp. 527-530, 2006. 58, C58. S. M. Rezaul
Hasan and Nazmul Ula, “A Novel Current Feed-back Sub-Nano-Siemen
Transconductance Circuit Suitable for Large Time-Constant Bio-medical Applications,“ Proceeedings IEEE ASIA-PACIFIC conference on Circuits & Systems, Dec.
5-7, Singapore, pp. 687-690, 2006. 57, C57. S. M. Rezaul
Hasan, “Stability and compensation technique for a CMOS amperometric potentiostat circuit for redox
sensors,” Proceedings IEEE ASIA-PACIFIC Conference on Circuits & Systems,
Dec. 5-7, Singapore, pp. 878-881, 2006. 56, C56. S. M. Rezaul
Hasan and Nazmul Ula, “A Novel Current-feedback Nano-Siemen Transconductance Circuit
Suitable for Large Time-constant
Applications, “ Proceedings
IEEE Midwest conference on Circuits & Systems, CD proceedings,
Puerto Rico, 2006. 55, C55. S. M. Rezaul
Hasan and Nazmul Ula, “An Inductive-bounce Enhanced Output-pad for CMOS UltraWideBand RF Applications, “ Proceedings IEEE Midwest conference on Circuits &
Systems, CD proceedings, 54, C54.
S. M. Rezaul Hasan, “A CMOS Low Noise Pre-Amplifier for Ultra-Wide-Band
RF Receiver,” Proceedings IFIP VLSI System-on-Chip
2005 Conference, Perth, Australia, pp.
545-549, 2005. 53, C53.
S. M. Rezaul Hasan, “A Novel Wide-Swing
Wide-Bandwidth Scalable Low-Voltage Analog CMOS Multiplier for Communication
Signal Processing,” Proceedings 12th
Electronics New Zealand Conference, Nov 14-15, Manukau, New Zealand, pp.
31-34, 2005. 52, C52.
S. M. Rezaul Hasan, “A novel integrated
circuit model for mRNA transcription
in bio-cellular processes,”
Proceedings 12th Electronics 51, C51.
S. M. Rezaul Hasan, “A fifth order
LC butterworth tuned CMOS low noise pre-amplifier for ultrawideband
RF receiver,” Proceedings 12th
Electronics New Zealand Conference, Nov 14-15, Manukau, New Zealand,
pp.25-29, 2005. 50, C50.
A. Luxton and S. M. Rezaul Hasan, “A low
power high gain CMOS folded cascade
amplifier,” Proceedings 12th
Electronics New Zealand Conference, Nov 14-15, Manukau, New Zealand, pp.
47-50, 2005. 49, C49.
S. M. Rezaul Hasan, “A novel CMOS
integrated circuit model for
cellular DNA-protein regulatory mRNA
transcription process,” Proceedings 12th
International conference on biomedical engineering, Dec 7-10, 48, C48.
S. M. Rezaul Hasan and Nazmul Ula, “A Capacitor-free Feed-forward
Compensated Single-stage Merged Topology Fully-differential CMOS Folded
Cascode Amplifier ,” Proceedings 3rd IEEE
North East Workshop on Circuits and Systems, 47, C47.
S. M. Rezaul Hasan, “A High Efficiency
3GHz 24-dBm CMOS Linear Power
Amplifier for RF Application,” Proceedings
5th IEEE workshop on Systems-on-chip for Real-time applications,
July 19-21, 46,
C46. S. M. Rezaul Hasan, “A transmission-gate
CMOS folded LC quadrature VCO for low-power RF transceivers”, Proceedings 11th Electronics 45, C45.
A. M. Jannesari, S. M. Rezaul Hasan, and Mehrdad Sharif-Bakhtiar, “Design of
wide-band opamp with improved DC-gain for high-Q high frequency
switched-capacitor filters”, Proceedings 11th
Electronics New Zealand Conference, Nov 15-16, Palmerston North, New Zealand,
pp.77-81, 2004.
44,
C44. S. M. Rezaul Hasan and Nazmul Ula, “A 4GHz Low-Power Folded-Cascode CMOS LC
Quadrature
VCO
for RF Transceivers”, Proceedings The
2004 International Conference on VLSI (VLSI'04), June 21-24, 43, C43.
S. M. Rezaul Hasan, “A scalable low-voltage extended swing CMOS LC quadrature
VCO for RF Transceivers”, Proceedings 4th
IEEE workshop on Systems-on-chip for Real-time applications, July 19-21,
Alberta, Canada, IEEE Computer Society
Press, pp.131-135, 2004. 42,
C42. Nazmul Ula and S. M. Rezaul Hasan, "Simulation and Optimization of
a Wide-Bandwidth Transimpedance Amplifier", Proceedings of the
Twelfth IASTED International
Conference on Applied Simulation and Modelling , 41, C41. S. M. Rezaul
Hasan and 40,
C40. S. M. Rezaul Hasan,
“A 5GHz CMOS Voltage-Current Feedback
Wide-band Transimpedance Amplifier for Optical
Transceivers,” IEEE ICECS, pp. 567-570 , Sharjah, Dec. 2003. 39, C39. S. M. Rezaul Hasan, “A 5GHz CMOS digitally controlled oscillator with a
3GHz tuning range for PLL
applications,” IEEE
ICECS 2003, pp. 208-211, Sharjah, Dec. 2003. 38, C38. S. M. Rezaul
Hasan, “A 5GHz CMOS
broad-band transimpedance
amplifier for optical transceivers,” Proceedings, IEEE GCC Industrial Electrical & Electronic Engineering
Conference, Bahrain, May 13-14, 2003. 37, C37. S. M. Rezaul
Hasan, “A high performance wide-band CMOS transimpedance amplifier
for optical transceivers,” Proceedings 3rd IEEE
workshop on Systems-on-chip for Real-time applications, 36, C36. S. M. Rezaul Hasan, " An Inductively
Peaked 3.5GHz Broad-band CMOS Trans-impedance Amplifier for Optical
Transceivers," CD Proceedings GSPx
International Signal Processing
Conference, Dallas, Texas, USA, March 31 - April 3, paper no: 431, 2003. 35, C35. S. M. Rezaul Hasan and Yufridin
Wahab, " Reduction of power dissipation in dynamic
BiCMOS logic gates by transistor
reordering," Proceedings International
Symposium on Integrated Circuits, Devices & Systems, pp.
117-121, September, 2001. 34, C34. S. M. R. Hasan and N. A. Quadir, “A 2.5 GHz
Current-Feedback Transimpedance Amplifier for
Optical Transceivers”, IEEE Region 10 33, C33. S. M. R. Hasan, “Effect of globalization on
electrical & computer engineering education”, Forum: The changing role of
engineering education in the information age – innovation and tradition, sharjah, Society of Engineers ,
pp. 50, UAE, April 2001. 32, C32. S. M. R. Hasan and S.
Kumar, “Design of a high speed and
high-performance CMOS serial bus data transceiver,” SPIE Proceedings, Design,
Modeling, & Simulation in Microelectronics, pp. 352-357, Volume 4228,
2000. 31, C31. S. M. R. Hasan and N. A. Quadir, “High
performance transimpedance amplifier for OC-48 Optical transceiver
application,” SPIE Proceedings, Design, Modeling, & Simulation in
Microelectronics, pp. 342-351, Volume
4228, 2000. 30, C30. Ho
Yoon Sun and
S. M. Rezaul Hasan " A
sixth-order 2-1-1-2 cascaded CMOS sigma-delta
modulator," Proc. 8 th
International Conference on IC Design, Technology & Manufacture (ISIC
'99), pp. 286-289, 29, C29. Lim Chu
Aun &and S. M. Rezaul Hasan " A BiCMOS implementation of an all
digital phase lock loop for VLSI
communication applications," Proc.
8 th International Conference on IC
Design, Technology &
Manufacture (ISIC '99), pp.
290-292, 28, C28. Lim Chu Aun
and S. M. Rezaul Hasan, "An all Digital BiCMOS Phase Lock 27, C27. S. M. Rezaul
Hasan and Yufridin Wahab, "Performance enhancement of low-voltage
dynamic BiCMOS logic gates by charge redistribution based
transistor reordering," Proc. International conference on
computing & information technology (ICCIT), 26, C26. Ho Yoon San,
S. M. Rezaul Hasan and Nazmul Ula, "CMOS Implementation of a
Sixth-Order Cascaded Sigma-Delta
Modulator Architecture,"
Proc. 42 nd IEEE Midwest
symposium on 25, C25. Azman
Yusof, Lim Chu Aun and S. M. Rezaul Hasan,
"600 MHz digitally
controlled BiCMOS oscillator (DCO) for VLSI
signal processing & communication applications," GLSVLSI-98, IEEE Computer 24, C24. Ho Yoon San and S. M. Rezaul Hasan, “A sixth-order CMOS sigma-delta
modulator“, ASIC Conference 1998.
Proceedings. Eleventh Annual IEEE International, pp. 63 –66, 13-16 Sep 1998. 23, C23. Ho
Yoon Sun and
S. M. Rezaul Hasan, " A
simulation tool for switched-capacitor sigma-delta converter," Proc. 7 th International Conference on IC Design,
Technology & Manufacture (ISIC '97), pp. 216-219, 22, C22. Ho
Yoon Sun and
S. M. Rezaul Hasan, " A
behavioral simulator for switched-capacitor sigma-delta modulator
analog-to-digital converter," Proc. IASTED International Conference on Modelling, Simulation and Optimization
, pp. 311-314, Singapore , 1997. 21, C21. K.
Jayabalan and S. M. Rezaul Hasan, "Current mode BiCMOS Folded
source-coupled logic circuits,
" IEEE International Conference on Circuits & Systems (ISCAS), pp. 1880-1883, 20, C20. K.
Jayabalan and S. M. Rezaul Hasan, "Improved current-mode BiCMOS logic
circuit technique," Proc.
ROVPIA'96 Conference, pp. 586-592, 19, C19. S. M. Rezaul Hasan and Chen Seong
Chin, "A new VLSI
architecture for multi layer
perceptron(MLP) network," Proc.
IEEE TENCON Conference, pp. 352-354,
Perth, Australia , 1996. 18, C18. S. M. Rezaul Hasan and Ho Yoon Sun, "Low power, high performance
switched-capacitor second order sigma-delta modulator suitable for battery
operated signal processing applications," Proc. IEEE TENCON Conference, pp.
728-730, Perth, Australia , 1996. 17, C17. S.M.
Rezaul Hasan and Ho Yoon Sun, "
Low power, high performance switched-capacitor second order sigma-delta
modulator suitable for battery operated signal processing
applications," Proc.
GlobalTRONICS Electronics Design Conference,
Suntec city, Singapore, 1996 . 16, C16. S. M.
Rezaul Hasan and Chakaravarty 15, C15. C. M. Hadzer, S. M. Rezaul Hasan and Lau Kwee Sing, " Improved Singular
Value Decomposition by using Neural Networks," Proc. IEEE International
Conference on Neural Networks (ICNN '95),
vol. 1, pp. 438 -
442, Perth, Australia, 1995. 14, C14. S. M. Rezaul Hasan and Ng Kang Siong, "A VLSI
BAM Neural Network Chip for Pattern Recognition Applications," Proc..
IEEE International Conference on Neural Networks (ICNN '95), vol. 1, pp 164 -
168, 13, C13. Norlaili Mohd. Noh and S. M. Rezaul Hasan,
"VLSI Viterbi Decoder for deep
space communications," Proceedings 2nd IEEE Malaysia International Conference on
Communications, pp. 14.6.1 - 14.6.4,
12, C12. Norlaili Mohd. Noh and S. M. Rezaul Hasan,
"Single Chip VLSI implementation of a systolic array viterbi
decoder," Proceedings 7th International Conference on
Microelectronics(ICM'95), pp.
63-66, 11, C11. S. M.
Rezaul Hasan and Chakaravarty 10, C10. S.M.
Rezaul Hasan, "Design of a pH
controller ASIC Fuzzy logic chip for
industrial application," Proc. GlobalTRONICS Electronics Design
Conference, WTC, 9, C9. S. M. Rezaul
Hasan and Norlaili bte Mhd. Noh, " Application of FPGA Device in the
Design of a Systolic Array Viterbi Decoder," Proc. Fifth International Conference on
Signal Processing Applications & Technology (ICSPAT ),
pp. 1459-1464, Dallas, Texas, USA, 1994. 8, C8. S. M. Rezaul Hasan &and Ng Kang Siong, "A
VLSI BAM Neural Network Chip for Pattern Recognition Applications," Proc. Australian Microelectronics Conference
(MICRO '93), 7, C7. S. M. Rezaul Hasan, " A new Distributed
-pipeline VLSI Distributed Arithmetic
Architecture for Discrete Fourier Transform Processor," Proc.
AL-AZHAR Engineering Third International Conference, Nasr City, Cairo,
Egypt, 1993. 6, C6. S.M. Rezaul Hasan, G. N. Kumer and R. S.
Fager," A Bi-level Weighted ASIC Neural Processor Slice," Proc.
International Micro-electronics & Systems Conference , PWTC, Kuala
Lumpur,Malaysia, 1993. 5, C5. S. M.
Rezaul Hasan and Ng Kang Siong, " VLSI BAM CHIP," Proc. International Conference on Signal
Processing Applications & Technology (ICSPAT), pp. 1637-1640, Santa
Clara, California, USA, 1993. 4, C4. S. M. Rezaul Hasan , "A Novel Pipeline LSI
Architecture for Image Magnification and Reduction," Proc. IEEE
Asian Electronics Conference, 3, C3. S. M. Rezaul Hasan, "A Novel LSI Architecture
for Image Scaling," Proc. IEEE TENCON Conference, pp. 110-114, Seoul, Korea, 1987. 2, C2. John Wu,
Han Jen, S. M. Rezaul Hasan,
" VLSI Processor Design using Standard-cell and Custom-cell
Methodology," Proc. 2nd International Symposium on IC Design
and Manufacture(ISIC-87), pp.
137-160, 1, C1. S. M. Rezaul Hasan , " A new VLSI
Architecture for Image Data rate Discrete Cosine Transform Processor,"
Proc. IASTED International Symposium on Signal Processing and its
Applications, pp. 750-755, Brisbane, Australia, 1987. |
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